DE1274311B - Gas-fired water heater for hot water circulation heating - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN 4S07WW PATENT OFFICE Int. α .:

F24d

EDITORIAL

German class: 36 c -11 \ (jf \

Number: 1274311

File number: P 12 74 311.2-16 (V 27775)

Filing date: February 13, 1965

Open date: August 1, 1968

The invention relates to a gas-fired water heater for hot water circulation heating a circulation pump and a safety valve in the gas path that acts as a low-water safety device controlling flow pressure switch. The flow pressure switch usually works with a slow ignition device directly on the safety valve in the gas path. The flow pressure switch is therefore a relatively large membrane switch.

The invention is based on the object of providing a water heater of the type mentioned at the beginning to create a lower construction cost and thereby a greater variety of circuit options which has low water protection.

The invention consists in that the safety valve is indirectly through a in the opening direction with Delay working electromagnetic actuator is actuated by one of the flow pressure switch controlled contact can be switched on. The electromagnetic actuator can be a Have lifting magnets with fluid brakes. In other words, this means that instead of usually safety valve operated directly by a membrane switch with slow ignition device a solenoid valve with a slow ignition device, e.g. an oil brake, is used and of a relatively small size and simple flow pressure switch is switched on and off.

In a further embodiment of the invention, the circuit of the adjusting device in which the Flow pressure switch contact and the contact of a monitoring thermostat connected in series are parallel to the circuit of the circulation pump. Claims 2 and 3 are real subclaims.

Such a solenoid valve with a contact controlled by the flow pressure results in a relatively small one Component that can easily be accommodated on the device in place of the large membrane switch. About that The invention also gives rise to further advantages. The solenoid valve cannot do it alone from the flow pressure, but also from other monitoring devices, e.g. a flow or return thermostat, can be switched, which would otherwise require an additional solenoid valve in the gas path. But above all, when the solenoid valve is switched on by a monitoring device (thermostat) the slow ignition device is effective. Instead of a solenoid valve working with a lifting magnet A valve driven by an electric servomotor can also be used will. As a flow pressure switch can be a relatively small

Gas-heated instantaneous water heater for
Hot water circulation heating

Applicant:

Joh. Vaillant K. G.,

5630 Remscheid, Berghauser Str. 40

Named as inventor:

Günter Möbus, 5678 Wenneiskirchen;

Hans Meier, 5630 Remscheid

Membrane device or a lever switch that can be moved by the water flow or the like. Serve.
The invention also solves the problem of controlling the gas supply with slow ignition while the circulating pump is still running. It can be set up in such a way that the circuit of the actuating device, in which the flow pressure switch contact and the contact of a monitoring thermostat are connected, is parallel to the circuit of the circulating pump. The gas supply can then be switched off and switched on again with slow ignition using the monitoring thermostat, for example in the supply line, without the circulation pump being switched off and on again.

In the figure, an embodiment of the invention is shown and described in more detail below.
The water circulating in a heating circuit 1 is conveyed by means of a pump 2 via a heater 3 and enters the radiator H of a heating system as feed water via a feed line 4. After it has given off heat, the water returns to the heater 3 via a return line 5 and the pump 2. A burner 6, which is monitored by an ignition flame T , is used for heating. The pilot flame T of the pilot burner 7 heats a thermocouple 8, whereby an electromagnet 9 is excited in a known manner, which holds a main gas valve 10 in the open position against a spring force 11 via a magnet armature plate 12 and the gas depending on the pilot burner flame for the supply of the burner 6 ready. By means of a push button 13 on the gas switch 14 you can to

5 "Commissioning of the device via a slide 13 ' open the gas valve 10, whereby ignition gas reaches the pilot burner 7, and the anchor plate 12 on

809 588/85

apply the magnet 9. The one with such safety gas switches usual auxiliary valve plate, which blocks the gas passage to the burner 6 as long as you keep the slide 13 'pressed, and the main gas valve 10 opens until the anchor plate 12 from Magnet 9 is held in contact, is replaced by a safety valve 15 here. This is possible because that the push button 13 'can only be pressed in as long as the safety valve 15 is closed and a lock 16 formed by the shaft 17 of the safety valve 15 is open. The thermoelectric Circuit is through a temperature limiter 18 and its electrical switch 18 ' controlled. The temperature limiter 18 is built into the flow line 4 close to the radiator 3.

The safety valve 15 loaded by a spring 15 ′ is actuated by a lifting magnet via the shaft 17 23 controlled, which retracts its solenoid core 24 and raises the shaft 17. With the shaft 17, an upstroke retarding fluid brake 25 is connected.

In the flow line 4, a flow thermostat 21 is installed, which is at a predetermined temperature a contact 21 'closes. A flow pressure switch 22 connected to the flow line 4 closes a contact 22 'as a function of a water flow in the supply line 4. The contacts 21 ', 22' are in series in the circuit of the lifting magnet 23, which is parallel to the circuit of the circulation pump 2 is switched. The contact 19 of a main switch is in the circuit of the circulation pump 2 and a contact 20 of a room thermostat, not shown. After the thermoelectric If the ignition fuse is ready for operation, the main electrical switch 19 of a mains circuit is activated by hand closed. Provided that the room thermostat keeps its contact 20 closed, the pump 2 runs at. The flow switch 22 closes the circuit of the lifting magnet 23 via 22 ' closed contact 21 ', the magnetic core 24 is attracted and lifts the lifting pin 17, whereby the oil brake 25 the opening of the safety valve 15 is delayed. The burner 6 now heats via the heater 3 the circulating water. When the flow thermostat 21 reaches the set temperature, he opens the circuit of the lifting magnet 23 via his switch 21 ', so that the safety valve 15 closed by its spring 15 'and the heating is interrupted. The pump 2, meanwhile, promotes this Water continues to circulate. Only when the flow thermostat cools down does it close the switch again 21 ', so that via the flow switch 22, 22' which is closed anyway, the solenoid 23 controls the safety valve 15 opens again with a delay and sets the burner 6 in motion.

If contact 20 is opened when the room thermostat responds, both the Pump 2 and the solenoid 23 from. Since there is no more water circulating, the flow switch interrupts 22 as additional security also via 22 'the magnetic circuit. Since the thermoelectric If the device remains ready for operation, the system goes on when the room thermostat contact 20 closes automatically back into operation.

For the sake of completeness, two security measures not belonging to the invention are listed.

Should the flow temperature or the temperature of the heater 3 become impermissibly high, then speaks the temperature limiter 18 and interrupts the thermal circuit at 18 ', and the magnet 9 is Via the armature plate 12, the valve plate 10 is released, which is moved into the closed position by its spring 11. Of the Burner 6 goes out.

The valve 10 cannot be brought into the open position before the stem 17 is back in its Has returned to its rest position. This can only happen if the main electrical switch 19 of the Mains circuit is switched off. This also stops the circulation pump 2 and the flow switch in turn, for safety reasons, the circuit of the lifting magnet opens via switch 22 ' 23. In the meantime the temperature limiter 18 has cooled down and has its thermostatic switch 18 'closed again. Now all the requirements have been met for a new start-up, especially since also the flow thermostat 21 likewise again by cooling its switch 21 ' has closed.

Claims (3)

Patent claims: 1. Gas-heated instantaneous water heater for hot water circulation heating with a circulation pump and one that controls a safety valve in the gas path that acts as a water shortage safety device Flow pressure switch, characterized in that the safety valve (15) is indirect by an electromagnetic actuating device operating with a delay in the opening direction (23, 24,25) is actuated by a contact (22 ') controlled by the flow pressure switch (22) can be switched on. 2. Flow heater according to claim 1, characterized in that the electromagnetic adjusting device has a lifting magnet (23,24) with a liquid brake (25). 3. Water heater according to claim 1 or 2, characterized in that the circuit of the Adjusting device (23) in which the flow pressure switch contact (22 ') and the contact (21') of a Monitoring thermostats (21) are connected in series, parallel to the circuit of the circulation pump (2) lies. Considered publications: German utility model No. 1816 075, 1 859 361;
French patent specification No. 1,353,919. 1 sheet of drawings 809 588/85 7.68 © Bundesdruckerei Berlin